ii
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v
About the Editors ....................... ix
About the Writers ....................... xi
Preface ..................................... xiii
Introduction .............................. xv
Abbreviations ........................... xix
Monographs ................................1
Abatacept ...................................2
Acetaminophen Injection ..............4
acetaZOLAMIDE ...........................6
Acetylcysteine (NAC) ....................8
Acyclovir Sodium ....................... 12
Adalimumab .............................. 16
Adenosine ................................. 18
Albumin (Normal Human
Serum) .................................. 20
Alfentanil .................................. 22
Allopurinol Sodium ..................... 26
Alprostadil ................................ 28
Amikacin Sulfate ........................ 30
Aminocaproic Acid ..................... 34
Aminophylline ........................... 36
Amphotericin B .......................... 40
Amphotericin B Cholesteryl
Sulfate Complex ..................... 44
Amphotericin B Lipid Complex ..... 46
Amphotericin B Liposomal ........... 48
Ampicillin Sodium ...................... 50
Ampicillin Sodium–Sulbactam
Sodium .................................. 54
Anidulafungin ............................ 56
Antihemophilic Factor (Human) .... 58
Antihemophilic Factor
(Recombinant) ........................ 62
Antihemophilic Factor/
von Willebrand Factor
Complex (Human) ................... 66
Anti-inhibitor Factor Complex ...... 72
Argatroban ............................... 74
Arginine HCl .............................. 76
Asparaginase ............................ 78
Asparaginase–Pegylated
(Pegaspargase) ....................... 80
Atenolol .................................... 82
Atracurium Besylate ................... 84
Atropine Sulfate ........................ 88
Azithromycin ............................. 92
Aztreonam ................................ 94
Baclofen ................................... 96
Bumetanide ............................ 100
Bupivacaine ............................ 102
Caffeine Citrate ....................... 106
Calcitriol ................................. 110
Calcium Chloride...................... 112
Calcium Gluconate ................... 114
Caspofungin ............................ 118
CeFAZolin Sodium .................... 120
Cefepime ................................ 122
Cefotaxime Sodium .................. 126
Cefotetan Disodium .................. 128
Cefoxitin Sodium ..................... 130
Ceftaroline .............................. 132
Ceftazidime ............................. 134
CefTRIAXone Sodium ............... 138
Cefuroxime Sodium .................. 142
Chloramphenicol Sodium
Succinate ............................. 144
Chlorothiazide ......................... 146
ChlorproMAZINE HCl ................ 148
Cimetidine .............................. 150
Ciprofl oxacin Lactate ................ 152
Cisatracurium Besylate ............. 156
CISplatin ................................ 158
Clindamycin Phosphate ............. 162
Co-Trimoxazole (Trimethoprim–
Sulfamethoxazole) ................ 166
Coagulation Factor VIIa
(Recombinant) (rFVIIa) .......... 170
Conivaptan ............................. 174
Cyclophosphamide ................... 176
CycloSPORINE ......................... 178
Cytomegalovirus
Immunoglobulin .................... 180
DACTINomycin ........................ 182
Daptomycin ............................ 184
Table of Contents
Darbepoetin .............................186
Deferoxamine Mesylate .............190
Dexamethasone Sodium
Phosphate .............................194
Dexmedetomidine HCl ...............198
Dextrose .................................202
Diazepam ................................204
Digoxin ...................................208
Digoxin Immune Fab .................212
Dihydroergotamine Mesylate ......216
Diltiazem HCl ...........................218
DiphenhydrAMINE HCl ...............220
DOBUTamine HCl ......................222
Dolasetron Mesylate ..................224
DOPamine HCl ..........................226
Doripenem ...............................230
Doxapram HCl ..........................232
Doxycycline Hyclate ..................234
Droperidol ...............................236
Edetate Calcium Disodium..........238
Edrophonium Chloride ...............242
Enalaprilat ...............................244
Enoxaparin Sodium ...................246
EPINEPHrine HCl .......................250
Epoetin Alfa .............................254
Ertapenem ...............................258
Erythromycin Gluceptate/
Lactobionate .........................260
Esmolol HCl .............................262
Esomeprazole ...........................264
Etanercept ...............................266
Ethacrynate Sodium ..................268
Ethanol ...................................270
Etomidate ................................272
Etoposide ................................274
Factor IX (Human) ....................276
Factor IX Complex (Human) .......280
Famotidine ...............................284
Fenoldopam .............................286
FentaNYL Citrate .......................288
Ferric Gluconate .......................292
Filgrastim ................................294
Fluconazole ..............................296
Flumazenil ...............................298
Fomepizole ..............................302
Foscarnet Sodium .....................304
Fosphenytoin ...........................306
Furosemide ..............................310
Ganciclovir Sodium ...................314
Gentamicin Sulfate....................318
Glucarpidase ............................322
Glycopyrrolate ..........................324
Granisetron HCl ........................326
Haloperidol Lactate ...................328
Heparin Sodium ........................330
HydrALAZINE HCl .....................334
Hydrochloric Acid (HCl) ..............336
Hydrocortisone Sodium
Succinate ..............................338
Hydroxocobalamin ....................342
Ibandronate Sodium .................344
Ibuprofen Lysine .......................346
Ifosfamide ...............................350
Imipenem–Cilastatin
Sodium .................................352
Immune Globulin
Intravenous ..........................354
Inamrinone Lactate ..................358
Indomethacin Sodium
Trihydrate .............................360
Infl iximab ................................364
Insulin ....................................368
Interferon Alfa-2b .....................372
Irinotecan HCl ..........................376
Iron Dextran ............................380
Isoproterenol HCl ......................384
Kanamycin Sulfate ....................386
Ketamine HCl ...........................388
Ketorolac Tromethamine ............392
L-cysteine HCl ..........................396
Labetalol HCl ............................398
Lacosamide Injection.................400
Leucovorin Calcium ...................402
Levetiracetam ..........................406
Levocarnitine ...........................410
Levothyroxine Sodium ...............412
vi Table of Contents
Lidocaine HCl ...........................414
Linezolid ..................................416
LORazepam .............................420
Lymphocyte Immune Globulin–
Antithymocyte Globulin
(Equine) ...............................424
Lymphocyte Immune Globulin–
Antithymocyte Globulin
(Rabbit) ................................426
Magnesium Sulfate ...................428
Mannitol ..................................430
Meperidine HCl .........................432
Meropenem ..............................434
Methotrexate ...........................436
Methyldopate HCl .....................440
MethylPREDNISolone Sodium
Succinate ..............................442
Metoclopramide HCl ..................446
metroNIDAZOLE/
metroNIDAZOLE HCl ...............448
Micafungin ...............................450
Midazolam HCl .........................452
Milrinone Lactate ......................456
Mivacurium ..............................460
Morphine Sulfate ......................462
Multivitamins (Adult) .................466
Multivitamins (Pediatric) ............468
Muromonab-CD3 ......................470
Nafcillin Sodium........................472
Naloxone HCl ...........................474
Nesiritide .................................478
NiCARdipine .............................480
Nitroglycerin ............................484
Norepinephrine
Bitartrate ..............................486
Octreotide Acetate ....................488
Ondansetron HCl ......................492
Oxacillin Sodium .......................494
Palivizumab .............................496
Pamidronate ............................498
Pancuronium Bromide ...............500
Pantoprazole ............................502
Papaverine HCl .........................504
Pegfi lgrastim ............................506
Peginterferon Alfa (Alpha-2a,
Alpha-2b) .............................508
Penicillin G Potassium/Sodium ....512
Pentamidine Isethionate ............516
PENTobarbital Sodium ...............518
PHENobarbital Sodium ...............520
Phenylephrine ..........................524
Phenytoin Sodium .....................526
Physostigmine Salicylate ............530
Piperacillin Sodium ....................532
Piperacillin Sodium–Tazobactam
Sodium .................................534
Potassium Chloride ...................536
Potassium Phosphates ...............538
Pralidoxime Chloride
(2-PAM Chloride) ...................540
Procainamide HCl ......................542
Promethazine HCl .....................544
Propofol...................................546
Propranolol HCl ........................550
Protamine Sulfate .....................552
Protein C Concentrate
(Human) ...............................554
Ranitidine ................................556
Rasburicase .............................558
Rifampin ..................................560
RiTUXimab ...............................562
Rocuronium Bromide .................566
Ropivacaine HCl ........................570
Sargramostim ..........................572
Sodium Bicarbonate ..................574
Sodium Chloride .......................578
Sodium Nitroprusside ................580
Succinylcholine Chloride ............584
SUFentanil Citrate .....................588
Tacrolimus ...............................592
Temsirolimus ............................594
Terbutaline Sulfate ....................596
Thiopental Sodium ....................598
Ticarcillin Disodium–Clavulanate
Potassium .............................602
Tigecycline ...............................604
Table of Contents vii
Tissue Plasminogen Activator
(t-PA)-Alteplase .....................606
Tobramycin Sulfate ...................610
Topotecan HCl ..........................614
Tranexamic Acid .......................616
Tromethamine ..........................620
Valproate Sodium .....................622
Vancomycin HCl ........................626
Vasopressin .............................630
Vecuronium Bromide .................634
Verapamil HCl ..........................638
VinBLAStine Sulfate ..................640
VinCRIStine Sulfate ...................642
Vitamin A ................................646
Vitamin K1–Phytonadione ...........648
Voriconazole ............................650
Zidovudine ...............................652
Zoledronic Acid .........................654
Appendix A: Nomogram for
Determining Body Surface Area
of Children from Height and
Mass ..................................... 657
Appendix B: Nomogram for
Estimating Ideal Body Mass
in Children ............................ 658
Appendix C: Additives and
Antibiotic Considerations ...... 659
Appendix D: Y-Site Compatibility
of Medications with Parenteral
Nutrition ............................... 661
Appendix E: Extravasation
Treatment ............................. 666
References .............................. 667
Index of Brand and Generic
Drug Names ....................... 793
viii Table of Contents
ix
Stephanie J. Phelps, PharmD, BCPS, FAPhA, FCCP, FPPAG, received her baccalaureate pharmacy degree from Samford University and a doctor of pharmacy degree from The University of Tennessee Health Science Center (UTHSC). She subsequently completed postdoctoral training in pediatrics at LeBonheur Children’s Medical Center and UTHSC. Dr. Phelps is currently a Professor of Clinical Pharmacy and Pediatrics at UTHSC and Associate Dean of Academic Affairs for the College of Pharmacy. For over a decade, she served as Director of Experiential Education of the College. She is an elected Fellow of American College of Clinical Pharmacy (ACCP), the American Pharmacists Association (APhA), and the Pediatric Pharmacy Advocacy Group (PPAG), and she is a Board-Certifi ed Pharmacotherapy Specialist. Dr. Phelps has held elected offi ces in AACP and ASHP and has served on the Board of Directors of the American Society of Parenteral and Enteral Nutrition (ASPEN) and the PPAG. She is a past chair of the Pharmacy Academy of the National Academies of Practice. She is a past recipient of the APhA Academy of Student Pharmacists Outstanding Chapter Advisor award, the 2009 Tennessee Society of Hospital Pharmacy’s Distinguished Service Award, and the 2011 Helms Award for Excellence in Pediatric Pharmacy Practice from PPAG. Dr. Phelps has received numerous teaching awards and was the fi rst pharmacy faculty member elected to the UTHSC campus Academy of Distinguished Teachers. During her career, she has participated in the education of fi ve postdoctoral fellows and over 50 pediatric pharmacy residents. She is editor-in-chief of the Journal of Pediatric Pharmacology and Therapeutics and has published numerous manuscripts, book chapters, and reviews that focus on pediatric pharmacotherapy.
Tracy M. Hagemann, PharmD, FCCP, FPPAG, received her doctor of pharmacy degree from the University of Missouri-Kansas City School of Pharmacy in 1994. She completed a pharmacy practice residency at the Regional Medical Center in Memphis, Tennessee, followed by a pediatric specialty residency at the University of Oklahoma and Children’s Hospital at OU Medical Center in Oklahoma City. Dr. Hagemann is an Associate Professor at the University of Oklahoma College of Pharmacy and an Adjunct Associate Professor at the College of Medicine, Department of Pediatrics. Her focus of practice and research is in pediatric hematology and oncology. She is an elected fellow of both the American College of Clinical Pharmacy and the Pediatric Pharmacy Advocacy Group. She is an active member of various national pharmacy organizations and has held elected offi ces in PPAG, as well as the Oklahoma Society of Health-System Pharmacists. Dr. Hagemann has published book chapters in pediatric sickle cell disease, and her teaching and research have resulted in the publication of over 40 peer-reviewed journal articles and over 50 scientifi c abstracts.
Kelley R. Lee, PharmD, BCPS, received her doctorate of pharmacy degree from The University of Tennessee Health Science Center. She completed a two-year residency in pediatric pharmacotherapy at Le Bonheur Children’s Hospital and The University of Tennessee Health Science Center. After residency training, Dr. Lee served as a Clinical Pharmacy Specialist and then the Clinical Pharmacy Manager at Le Bonheur Children’s Hospital and part-time Professor of Clinical Pharmacy at The University of Tennessee Health Science Center. She has recently shifted focus to infectious diseases and is currently a Clinical Pharmacy Specialist in Antimicrobial Stewardship at Le Bonheur Children’s Hospital. Her practice and research interests have primarily been the appropriate use of medications in pediatric patients, particularly with the use of antibiotics. In addition to serving as a contributing writer for several editions of this book, she has published numerous manuscripts, abstracts, and letters-to-the-editor on this subject.
About the Editors
A. Jill Thompson, PharmD, BCPS, earned her doctor of pharmacy degree from The University of Tennessee Health Science Center in 2001 and completed PGY1 and PGY2 residencies in Pediatric Pharmacy Practice at Le Bonheur Children’s Medical Center in Memphis, Tennessee, from 2001 to 2003. Dr. Thompson is the Coordinator of Pediatric Clinical Pharmacy Services and is a Clinical Specialist in Pediatric Critical Care in the Department of Pharmacy Services, Medical University of South Carolina (MUSC), Charleston, South Carolina. She also serves as an Adjunct Assistant Professor in the Department of Clinical Pharmacy and Outcomes Sciences at the South Carolina College of Pharmacy, MUSC Campus. Dr. Thompson participates in clinical research regarding pediatric critical care and works closely with the pharmacy residency programs at MUSC. She is recognized as a Board-Certifi ed Pharmacotherapy Specialist and is a member of the American College of Clinical Pharmacy, Pediatric Pharmacy Advocacy Group, and the Society of Critical Care Medicine. She has served as manuscript editor for the Journal of Pediatric Pharmacology and Therapeutics for seven years and is now a member of the editorial board.
x About the Editors
xi
About the Writers Megan Andrews, PharmD PGY2 Pediatric Resident University of Oklahoma College of Pharmacy Oklahoma City, Oklahoma
Rebecca F. Chhim, PharmD, BCPS Assistant Professor, Clinical Pharmacy The University of Tennessee Health Science Center Le Bonheur Children’s Hospital Memphis, Tennessee
Catherine A. Crill, PharmD, BCPS, BCNSP Associate Professor, Clinical Pharmacy The University of Tennessee Health Science Center Le Bonheur Children’s Hospital Memphis, Tennessee
Carolyn E. Ragsdale, PharmD, BCPS Clinical Pharmacy Specialist, Pediatric Critical Care Dell Children’s Medical Center of Central Texas Seton Healthcare Family Austin, Texas
Chasity M. Shelton, PharmD, BCPS, BCNSP Assistant Professor, Clinical Pharmacy The University of Tennessee Health Science Center Le Bonheur Children’s Hospital Memphis, Tennessee
Sarah K. Wassil, PharmD, BCPS Pediatric Clinical Pharmacist Wolfson Children’s Hospital Jacksonville, Florida
xiii
In the late 1930s, elixir sulfanilamide was marketed for the treatment of streptococcal infections. The poor solubility of the antibiotic made it diffi cult to create a liquid formulation; hence, the medication was mixed with diethylene glycol. Although the company tested the raspberry-fl avored product for palatability, it was not tested for safety before distribution. Unfortunately , more than 100 individuals, including many children, died following its ingestion. In 1949, intravenous chloramphenicol, a bacteriostatic antimicrobial, became an important agent in the treatment of a variety of pediatric infectious diseases. Unfortunately , the medication caused signifi cant vomiting, ashen-gray color of the skin, limp body tone, distended abdomen, hypotension, and cardiovascular collapse. This phenomenon, termed gray-baby syndrome , resulted in the death of hundreds of newborns who lacked the hepatic enzymes (i.e., UDP-glucuronyl transferase) necessary to metabolize large doses of the medication and the required renal maturity to excrete the unconjugated drug. Thalidomide was introduced in the late 1950s as a sleeping pill but was quickly noted to prevent nausea and vomiting during early pregnancy. Unfortunately , it was subsequently found to cause signifi cant birth defects and was removed from the market. In 1983, the intravenous vitamin E supplement, E-Ferol, was marketed. Unfortunately , within 3 months, its use was associated with ascites, liver and renal failure, thrombocytopenia, and death in low birth weight infants. This tragedy was ultimately attributed to the polysorbates added as emulsifi ers; a new drug application had not been submitted to the Food and Drug Administration (FDA) prior to use. Unfortunately , there are other noteworthy therapeutic disasters including valproate hepatotoxicity in young children, aspirin and Reye syndrome, benzyl alcohol and fatal gasping syndrome, and the list goes on. The negative effects of these therapeutic disasters have led to more structured drug regulations and control over drug use and development including passage of the 1938 Federal Food, Drug, and Cosmetic Act.
Regardless of profession, those practicing in pediatrics understand that the vast majority of medications given are used off label. In fact, as much as 75% of all medications used in this population are not approved by the FDA for use in either the specifi c age group or disease for which it is administered. Despite the National Institutes of Health’s creation of the Pediatric Pharmacology Research Units (PPRUs) and the FDA Modernization Act (FDAMA), much of the necessary research to validate safety and effi cacy of medications has yet to be conducted in all pediatric populations. The impact of FDAMA has been important as more than 100 industry-sponsored studies have been conducted, but much of the effort has not included premature and full-term neonates and infants.
The reasons for lack of information and subsequent FDA approval is multifactorial and relates to priorities in pharmaceutical industry and federal funding, the belief that we need to protect our most vulnerable from medication-associated harm, and ethical considerations such as voluntary participation and informed consent/assent, which in many cases is not possible to obtain due to the patient ’ s young age. All stakeholders must continue to proactively discuss the issues that surround drug research and prevention of therapeutic misadventures in the pediatric population.
The tenth edition of Pediatric Injectable Drugs (The Teddy Bear Book) has three new editors. Collectively, these editors bring 75 years of pediatric pharmacy practice experience to the book and represent the practice approaches and philosophies of three different institutions. Beyond general pediatric pharmacotherapy, the specifi c expertise of the editors includes critical care medicine, hematology and oncology, infectious diseases, and neurology.
This edition of Pediatric Injectable Drugs (The Teddy Bear Book) has been revised to include 238 parenteral medications. Twenty new monographs, some of which are newly marketed drugs, have been added. Previously published monographs have been extensively reviewed and updated to include the most recent literature available. Information included in this text was compiled in an evidence-based manner from, in most cases, the primary literature
Preface
including case reports, observational reports, and comparative trials. Limited information is available for some of the frequently used older drugs in which case recommendations may come from textbooks. Importantly, the references are provided in the back of the book according to generic drug names, thereby allowing readers to access the source of the information provided and make independent decisions related to their specifi c patients.
With this edition, Pediatric Injectable Drugs (The Teddy Bear Book) will also be available as both a mobile app and as an eBook. For information on the mobile app, go to www.ashp.org/teddybear. The eBook version of Pediatric Injectable Drugs (The Teddy Bear Book) can be purchased through ASHP eBooks (ebooks.ashp.org) or from Amazon Kindle, the Apple iBookstore, or Barnes & Noble Nook.
We hope that this text improves your ability to safely and effectively use medications in all members of the pediatric community and that ultimately the information contained in this reference will not only facilitate their recovery, enhance their quality of life, and prevent unfortunate therapeutic misadventures, but also enable you to sleep better at night.
Stephanie J. Phelps Tracy M. Hagemann
Kelley R. Lee A. Jill Thompson
2013
xiv Preface
xv
The following guidelines were developed to provide a single authoritative source of infor-mation on the parenteral administration of medications to pediatric patients. All recom-mendations should be individualized in accordance with the clinical situation.
This tenth edition of ASHP ’ s Pediatric Injectable Drugs has been updated to improve existing sections and to make them more user-friendly through their placement in the monograph and with the addition of more specifi c subheadings. The tenth edition provides the fol-lowing information for updates to 238 drugs and all references that support information contained in the text.
Brand names Common brand names and, if applicable, other names (synonyms) are listed.
Medication error potential
If the drug was included in the ISMP ’ s List of High-Alert Medications , ISMP ’ s List of Con-fused Drug Names , or the USP ’ s Findings of Look-alike and/or Sound-alike Drug Errors at the time the monograph was written, it will be noted in this section. Tall man letters, per FDA and ISMP recommendations, will be used in this section, as well as in the monograph title and in the title in the references, if applicable.
Contraindications and warnings
While it may be noted in the monographs, it is understood that a drug would be contrain-dicated in a patient who has experienced a prior anaphylaxis or type I hypersensitivity reaction. U.S. Boxed Warnings, Contraindications, and Other Warnings, if applicable, will be described under subheadings in this section. The Other Warnings subheading will describe warnings deemed noteworthy and may not be the complete list of warnings included in the manufacturer ’ s labeling. It is recommended to review the labeling for the most com-plete list.
Infusion-related cautions
Warnings are provided where appropriate. If a drug requires premedication or if the administration of the drug necessitates the availability of another drug (i.e., to have on hand), information regarding premedication or the drug to have on hand will be provided in this section. If a drug should be given only via central access, this will be noted here. If a drug carries an increased risk of thrombophlebitis, infi ltration, or extravasation, it will be noted in this section. Appendix E provides information regarding extravasation treatment for medications known to cause effects from infi ltration or extravasation.
Dosage Unless otherwise specifi ed, dosages are for all age groups. These age groups are as fol-lows: neonates (premature and term), up to 1 month; infants, 1 – 24 months; children, 2 – 12 years, and adolescents, 12 – 18 years. When applicable, adult dosing is also provided. While these age groups provide general guidelines for therapy in pediatric patients, it should be noted that changes in development, which affect drug pharmacokinetics and pharmacodynamics, and hence, dosing recommendations, are not confi ned to the limits of these defi ned age groups.
Dosage is often expressed as X mg/kg/day divided q Y – Z hours, where the total daily dose (X) is given in equally divided doses at evenly spaced intervals. Dosage may also be expressed as X mg/m 2 /day divided q Y – Z hours, a calculation of body surface area (BSA) as determined from height and mass. See Appendix A for a BSA nomogram.
The presence of obesity may require the practitioner to estimate ideal body mass/weight and calculate an adjusted weight for the dosing of some medications. Appendix B provides a nomogram for estimating total body mass/weight.
Dosage adjustment in organ dysfunction
Drugs requiring dosage adjustment in patients with renal or hepatic dysfunction and serum drug concentration monitoring are indicated. The manufacturer ’ s labeling and special-ized references are provided when available. Information, if known, will also be included about dosage adjustment or therapeutic drug monitoring with dialysis, continuous renal replacement therapy, and with extracorporeal membrane oxygenation.
Introduction
Maximum dosage Maximum dosages are referenced to primary literature where available. However, maximum dosages for pediatric patients are often extrapolated from adult data because of a lack of documented experience with pediatric patients. Many manufacturers caution against exceeding the maximum recommended adult dosage (usually expressed as X g/day) in pediatric patients. In this reference, when the maximum dosage is expressed as “ mg/kg/day, not to exceed X g/day, ” “ X g/day ” is typically the manufacturer ’ s maximum recom-mended adult dosage and should be used only as an upper limit for pediatric dosing. It should not be inferred that use of these maximum dosages in pediatric patients is recom-mended and is without risk of toxicity. Readers should consult the references indicated for information on the use of these maximum dosages in the pediatric population.
Additives Pertinent additives, including sodium and those with a potential for toxicity or adverse effects, are listed. Please see Appendix C for specifi c information on common additives with a potential for toxicity or adverse effects.
Suitable diluents If a drug can be mixed or diluted with a fl uid, the appropriate fl uids will be listed here. Compatible drugs will NOT be listed.
Drug stability in some of the IV solutions listed is limited. The manufacturer ’ s labeling and specialized references (e.g., Trissel LA. Handbook on Injectable Drugs . 17th ed. Bethesda, MD: American Society of Health-System Pharmacists; 2013) should be consulted for detailed stability information.
Maximum concentration
Generally, any concentration up to the maximum may be administered, taking into con-sideration the patient ’ s fl uid status (and potential for loss of vascular access), adminis-tration method (IV push vs. intermittent infusion), drug administration rate (and drug administration device fl ow rate range, if applicable), dose (and degree of accuracy required in dose measurement), and drug stability. However, some drugs, as indicated in these guidelines, should not be diluted.
For drugs available as solutions that may be administered undiluted, the maximum con-centration is the commercially available concentration. For drugs that must be reconsti-tuted prior to administration, the maximum concentration should serve as a guide for the minimum dilution required.
Concentrations listed are referenced to literature on drug use in pediatric patients to the extent possible. However, concentrations administered to adults are cited where documen-tation on use in pediatric patients is insuffi cient. The references should be consulted. The IV Push, Intermittent Infusion, Continuous Infusion, and Other Routes of Administration sections all begin with information concerning the concentration or concentration range usual for that method or route of administration.
Preparation and delivery
When pertinent, issues related to preparation and delivery are included in this section and, if applicable, will be described under the following subheadings: Preparation, Delivery, Stability, Compatibility, and Photosensitivity. If a drug has information regarding compat-ibility with parenteral nutrition solutions, a statement will be included. Appendix D provides information regarding compatibility of medications with parenteral nutrition solutions.
IV push This rate is generally expressed as a period of time over which the dose should be admin-istered (seconds or minutes) or as a quantity of drug per unit of time. In the latter case, the size of the dose determines the administration time. For the purpose of this text, IV push is defi ned as < 5 minutes. Drugs for which IV push administration is contraindicated are noted.
Intermittent infusion
The recommended infusion rate is expressed as a period of time over which the dose should be administered (minutes to hours) or as a quantity of drug per unit of time (size of dose determines administration time).
xvi Introduction
Continuous infusion
The recommended infusion rate is usually expressed as a quantity of drug per unit of time; infusion is continued for 24 hours unless otherwise specifi ed (e.g., until the desired therapeutic endpoint is achieved).
Other routes of administration
This section contains information on the appropriateness of other routes of administration, including IM, SC, ET, IT, and IO administration and the best site for administration. The terms contraindicated and not recommended will be used. Contraindicated implies that you do not administer the drug in that manner. Not recommended implies that it may have been administered in that manner, but it is not recommended to administer it in that manner. Drugs for which other routes of administration are contraindicated are noted.
Comments Miscellaneous information is included when pertinent. Information pertaining to adults is sometimes included because, in the absence of reports on pediatric use, adult data may be relevant and may be cautiously extrapolated to the pediatric population.
When applicable, the following subheadings may be included in the comments section: Signifi cant Adverse Effects, Rare Adverse Effects, Monitoring, Drug Interactions, Phar-macokinetic Considerations, Pharmacodynamic Considerations, Laboratory Interference, Osmolality, and Other.
Introduction xvii
xix
Abbreviations Solutions:
ABS acrylonitrile, butadiene, and styrene
BW bacteriostatic water for injection
D-LR dextrose — Ringer ’ s injection, lactated, combinations
D-R dextrose — Ringer ’ s injection combinations
D-S dextrose — saline combinations
D10NS dextrose 10% in sodium chloride 0.9%
D10W dextrose 10% in water
D15W dextrose 15% in water
D20W dextrose 20% in water
D2.5W dextrose 2.5% in water
D2.5 ½ NS dextrose 2.5% in sodium chloride 0.45%
D5LR dextrose 5% in Ringer ’ s injection, lactated
D5NS dextrose 5% in sodium chloride 0.9%
D5 ¼ NS dextrose 5% in sodium chloride 0.225%
D5 ⁄ NS dextrose 5% in sodium chloride 0.3%
D5 ½ NS dextrose 5% in sodium chloride 0.45%
D5R dextrose 5% in Ringer ’ s injection
D5S dextrose 5% in sodium chloride 0.9%, 0.45%, 0.3%, or 0.225%
D5W dextrose 5% in water
LR Ringer ’ s injection, lactated
NS sodium chloride 0.9% (normal saline)
¼ NS sodium chloride 0.225% ( ¼ normal saline)
⁄ NS sodium chloride 0.3% ( ⁄ normal saline)
½ NS sodium chloride 0.45% ( ½ normal saline)
R Ringer ’ s injection
SW sterile water for injection
Terms:
AAP American Academy of Pediatrics
ABCD amphotericin B colloidal dispersion
ABS acrylonitrile, butadiene, and styrene
ABW actual body weight
ACCP American College of Chest Physicians
ACLS advanced cardiovascular life support
ACT activated clotting time
ACTH adrenocorticotropic hormone
ADH antidiuretic hormone
AED antiepileptic drug
AHA American Heart Association
AHF antihemophilic factor
AIDS acquired immunodefi ciency syndrome
ALL acute lymphocytic leukemia
ALT alanine transaminase (may be referred to as SGPT)
AML acute myeloid leukemia
ANA antinuclear antibody
ANC absolute neutrophil count
APAP acetaminophen
aPTT activated partial thromboplastin time
ARDS acute respiratory distress syndrome
ASPEN American Society for Parenteral and Enteral Nutrition
AST aspartate aminotransaminase (may be referred to as SGOT)
ATG antithymocyte globulin
AUC area under the curve
AV atrioventricular
AZT azidothymidine
BAL British anti-Lewisite
BG blood glucose
BID two times daily
BLC blood lead concentration
BMI body mass index
BMT bone marrow transplant
BPD bronchopulmonary dysplasia
BPM beats per minute
BSA body surface area
BUN blood urea nitrogen
CABG coronary artery bypass graft
CAPD continuous ambulatory peritoneal dialysis
CBC complete blood count
CDAD Clostridium diffi cile – associated diarrhea
CDC Centers for Disease Control and Prevention
CDH congenital diaphragmatic hernia
CDP-1 crystalline degradation product
CF cystic fi brosis
CGA calculated gestational age
CGA comprehensive geriatric assessment
CHD congenital heart disease
CHF congestive heart failure
CINV chemotherapy-induced nausea and vomiting
CLD chronic lung disease
CML chronic myelogenous leukemia
CMV cytomegalovirus
CNS central nervous system
CPB cardiopulmonary bypass
CPK creatine phosphokinase
CPK-MB creatine phosphokinase MB isoenzyme
xx Abbreviations
CPR cardiopulmonary resuscitation
CrCl creatinine clearance
CRRT continuous renal replacement therapy
CSF cerebral spinal fl uid
CT computerized tomography
CTCAE common terminology criteria for adverse events
CVVH continuous venovenous hemofi ltration
CYP cytochrome P
CYP1A2 cytochrome P450 isoenzyme 1A2
CYP2A4 cytochrome P450 isoenzyme 2A4
CYP2B6 cytochrome P450 isoenzyme 2B6
CYP2C19 cytochrome P450 isoenzyme 2C19
CYP2C9/10 cytochrome P450 isoenzymes 2C9 and 2C10
CYP2E1 cytochrome P450 isoenzyme 2E1
CYP3A3/4 cytochrome P450 isoenzymes 3A3 and 3A4
DAART dexamethasone: A Randomized Trial
DEHP diethylhexyl phthalate
DIC disseminated intravascular coagulation
DKA diabetic ketoacidosis
DPT Demerol, Phenergan, Thorazine
DRESS drug reaction with eosinophilia and systemic symptoms
DVT deep vein thrombosis
DW dosing weight
ECG electrocardiogram
ECMO extracorporeal membrane oxygenation
ED emergency department
EDTA ethylenediaminetetraacetic acid
EEG electroencephalogram
ELBW extremely low birth weight
EMIT enzyme-multiplied immunoassay technique
ESA erythropoiesis-stimulating agent
ET endotracheal
EtOH ethanol
EVA ethylene vinyl acetate
FAB digoxin immune Fab
FDA Food and Drug Administration
FE fat emulsion
FFP fresh frozen plasma
FPIA fl uorescence polarization immunoassay
FT4 free thyroxine
GFR glomerular fi ltration rate
GI gastrointestinal
GM-CSF granulocyte-macrophage colony-stimulating factor
Abbreviations xxi
GVHD graft versus host disease
H1 histamine-1 receptor antagonist
H2 histamine-2 receptor antagonist
Hb hemoglobin; also Hgb
Hct hematocrit
HD hemodialysis
HHV human herpes virus
HIB Haemophilus infl uenzae type B
HIT heparin-induced thrombocytopenia
HITTS heparin-induced thrombocytopenia with thrombosis syndrome
HIV human immunodefi ciency virus
HLA human leukocyte antigen
HPLC high-performance liquid chromatography
hr hour
HSV herpes simplex virus
HUS hemolytic uremic syndrome
iNO inhaled nitric oxide
IBW ideal body weight
ICP intracranial pressure
ICU intensive care unit
IE infective endocarditis
IgG immunoglobulin G
IgM immunoglobulin M
IH idiopathic hyperphosphatasia
IM intramuscular
INR international normalized ratio
IO intraosseous
IP intraperitoneal
IQ intelligence quotient
ISMP Institute for Safe Medication Practices
IT intrathecal
ITP idiopathic thrombocytopenic purpura
IV intravenous
IVFE intravenous fat emulsion
IVH intraventricular hemorrhage
IVIG intravenous immune globulin; intravenous immunoglobulin
IVR in vivo recovery
JIA juvenile idiopathic arthritis
LBM lean body mass
LD loading dose
LDH lactate dehydrogenase
LFT liver function test
LGS Lennox – Gastaut syndrome
xxii Abbreviations
MAC Mycobacterium avium complex
MAO monoamine oxidase
MAOI monoamine oxidase inhibitor
MAP mean arterial pressure
MI myocardial infarction
MIC minimum inhibitory concentration
min minute
MMR measles, mumps, and rubella
mo month
MRI magnetic resonance imaging
MRSA methicillin-resistant Staphylococcus aureus
MTX methotrexate
NAC n-acetylcysteine
NAPA n-acetylprocainamide
NEC necrotizing enterocolitis
NHL non-Hodgkin lymphoma
NIH National Institutes of Health
NMS neuroleptic malignant syndrome
NMTT n-methyl-thiotetrazole side chain
NPO nothing by mouth
NSAID nonsteroidal anti-infl ammatory drug
OI osteogenesis imperfecta
OTC over-the-counter
PaO2 arterial partial pressure of oxygen
PALS pediatric advanced life support
PBPC peripheral blood progenitor cell
PCA partial-controlled analgesia
PCA postconceptional age
PCI percutaneous coronary intervention
PCP phencyclidine
PDA patent ductus arteriosus
PE phenytoin equivalent
PID pelvic infl ammatory disease
PMA postmenstrual age
PN parenteral nutrition
PNA postnatal age
PO by mouth
PONV postoperative nausea and vomiting
PPHN persistent pulmonary hypertension of the newborn
PPI proton-pump inhibitor
PRN pro re nata; as needed
PT prothrombin time
Abbreviations xxiii
PTH parathyroid hormone
PTT partial thromboplastin time
PVC polyvinyl chloride
PVR pulmonary vascular resistance
q every
RBC red blood cell
SA sinoatrial
SBECD sulfobutyl ether beta-cyclodextrin sodium
SC subcutaneous
SCr serum creatinine
SDC serum digitalis concentration
sec second
SIADH syndrome of inappropriate antidiuretic hormone
SLE systemic lupus erythematosus
SSRI selective serotonin reuptake inhibitor
TBW total body weight
TCA tricyclic antidepressant
TDD total digitalizing dose
THC tetrahydrocannabinol
TID three times daily
TNA total nutrient admixture
TNF tumor necrosis factor
TPA tissue plasminogen activator
TPN total parenteral nutrition
TSH thyroid-stimulating hormone
TTP thrombotic thrombocytopenic purpura
UGT uridine diphosphate – glucuronosyltransferase
UOP urine output
USP United States Pharmacopeia
UTI urinary tract infection
VAD ventricular assist device
VPA valproic acid
Vitamin B 12 cyanocobalamin
VLBW very low birth weight
VTE venous thromboembolism
vWD von Willebrand disease
VZV varicella-zoster virus
WBC white blood cell
wk week
WGA weeks gestational age
yr year
xxiv Abbreviations